Disk drive suspension with hybrid flexible circuit leads

1. A disk drive suspension having a distal rigid portion, and supported thereby a flexure carrying a head slider, an electrical connector comprising an electrically integrated hybrid of different segments including a first flexible conductive laminate segment free of a metal support layer and connected to signal circuitry, said first flexible conductive laminate segment constituting the entire length of said electrical connector up to said distal rigid portion and a second flexible conductive laminate segment including a metal support layer and connected to said slider, said distal rigid portion being comprised of said metal support layer, said segments being arranged sequentially and in such manner that the slider head is electrically coupled by said first flexible conductive laminate segment at the proximal end of said load beam, and by said second flexible conductor at said distal rigid portion.

2. The disk drive suspension according to claim 1 , in which said first flexible conductive laminate segment comprises at least one pair of conductive leads laminated with plastic film.

3. The disk drive suspension according to claim 1 , in which said first flexible conductive laminate segment is free of junctions between said signal circuitry and said second flexible conductive laminate segment.

4. The disk drive suspension according to claim 1 , in which said second flexible conductive laminate segment is electrically connected to said slider substantially in slider movement bias free relation.

5. A disk drive suspension having a distal rigid portion, and a flexure carrying a head slider, an electrical connector carried by said distal rigid portion along a major portion of the connector length, said connector comprising a two-component structure of separate, physically different conductors including a first flexible conductive laminate segment consisting of copper conductors and plastic dielectric, said first flexible conductive laminate segment constituting the entire length of said electrical connector up to said distal rigid portion, and a second flexible conductive laminate segment comprising copper conductors, plastic dielectric, and a stainless steel support laminated to said plastic dielectric, said distal rigid portion being comprised of said stainless steel support, said conductors being joined at the proximate end of said distal rigid portion to define an continuous electrical path for carrying current from said slider head to signal circuitry beyond said distal rigid portion.

6. The disk drive suspension according to claim 5 , in which said first flexible conductive laminate segment is free of junctions between said device electronics and said second flexible conductive laminate segment.

7. The disk drive suspension according to claim 6 , in which said second flexible conductive laminate segment is electrically connected to said slider substantially in slider movement bias free relation.

8. The disk drive suspension according to claim 7 , in which said distal rigid portion is apertured rearwardly of said second flexible conductive laminate segment, said slider is located adjacent a first surface of said distal rigid portion, and said first flexible conductive laminate segment is located adjacent the opposite surface of said distal rigid portion, said second flexible conductive laminate segment being connected to said first flexible conductive laminate segment through said aperture.

9. The disk drive suspension according to claim 5 , in which said second flexible conductive laminate segment is electrically connected to said slider substantially in slider movement bias free relation.

10. The disk drive suspension according to claim 5 , in which said distal rigid portion is apertured rearwardly of said second flexible conductive laminate segment, said slider is located adjacent a first surface of said distal rigid portion, and said first flexible conductive laminate segment is located adjacent the opposite surface of said distal rigid portion, said second flexible conductive laminate segment being connected to said first flexible conductive laminate segment through said aperture.

11. In combination: a load beam and the first and second flexible conductive laminate segments according to claim 5 , electrically coupled into a single electrical connector and arranged to conduct current from a slider to signal circuitry.

12. A disk drive suspension having a distal rigid portion, and a flexure carrying a head slider, an electrical connector carried by said distal rigid portion along a major portion of the connector length, said connector comprising a first flexible conductive laminate segment consisting of conductors and dielectric, and a second flexible conductive laminate segment comprising copper, dielectric, and a metal layer laminated to said dielectric, said distal rigid portion being comprised of said metal layer, said first segment constituting the entire length of said electrical connector up to said distal rigid portion, said first and second segments being joined at the proximate end of said distal rigid portion to define an continuous electrical path for carrying current from said slider head to signal circuitry beyond said distal rigid portion.

13. The disk drive suspension according to claim 12 , in which said distal rigid portion is apertured rearwardly of said second flexible conductive laminate segment, said slider is located adjacent a first surface of said distal rigid portion, and said first flexible conductive laminate segment is located adjacent the opposite surface of said distal rigid portion, said second flexible conductive laminate segment being connected to said first flexible conductive laminate segment through said aperture.